CN110012202B - Camera module connecting structure applied to in-plane hole digging screen, screen and terminal - Google Patents

Abstract

The invention provides a camera module connecting structure for an in-plane hole digging screen, which comprises the following components: the PCB circuit board is arranged at the hole digging position of the in-plane hole digging screen; the photosensitive wafer is fixed on the upper side surface of the PCB; the filter lens is fixed above the photosensitive wafer through the fixing bracket, and the fixing bracket is fixedly connected with the PCB circuit board; the control motor is connected with the PCB circuit board or the fixed bracket and used for driving the PCB circuit board, the photosensitive wafer, the filter lens and the fixed bracket to move up and down; the lens is fixed above the filter lens through the lens seat, the focal point of the lens and the focal point of the filter lens are on the same axis, and the lens seat is fixedly connected with the glass cover plate of the in-plane hole digging screen. The invention also provides a display screen and a mobile intelligent terminal with the camera module connecting structure. The invention can save the internal structural space of the whole machine, make the hole digging on the front of the screen smaller, and improve the screen duty ratio.

Description

Camera module connecting structure applied to in-plane hole digging screen, screen and terminal

Technical Field

The invention relates to the technical field of lenses, in particular to a camera module connecting structure, a display screen with the camera module connecting structure and a terminal.

Background

With the continuous development of the full screen age of mobile terminals such as mobile phones and tablets, people cannot meet the screen ratio demands of Notch screens and water drop screens, and in order to achieve higher screen ratio, in-plane hole digging screens are developed. The in-plane hole digging screen is a hole for a front camera to "dig" on a display screen of a mobile terminal such as a mobile phone, namely, a hole is formed in a complete display screen, and a camera component is arranged in the hole, so that the in-plane hole digging screen is closer to the concept of a comprehensive screen compared with a Notch screen and a water drop screen. The front camera module matched with the in-plane hole digging screen is also continuously improved.

As shown in fig. 1, the conventional front camera module is a whole structure, and mainly includes a lens base 101 and a lens 102; the device comprises a fixed bracket 103, a filter lens 104, a photosensitive chip 105, a PCB (printed circuit board) 106, a flexible circuit board 107 and a control motor 108; the front camera module is integrally fixed at the corresponding position of the front shell of the mobile phone. Fig. 1 schematically shows a connection structure of a front camera module of an overall structure. The front camera of the integral structure has the following defects: because the camera module is an integral structure, the camera module occupies a larger structural space in the whole machine, and the hole digging area is larger.

Therefore, it is necessary to provide a camera module connecting structure applied to an in-plane hole digging screen, which can reduce the internal structure ratio of the whole machine and the digging area ratio.

Disclosure of Invention

The invention aims to solve the technical problems in the prior art, and provides a camera module connecting structure applied to an in-plane hole digging screen, a display screen and a terminal with the camera module connecting structure, which can save the internal structural space of a whole machine, enable the hole digging on the front surface of the screen to be smaller and improve the screen occupation ratio.

The invention adopts the following technical scheme for solving the technical problems:

the invention provides a camera module connecting structure applied to an in-plane hole digging screen, which comprises the following components:

The PCB circuit board is arranged at the hole digging position of the in-plane hole digging screen;

the photosensitive wafer is fixed on the upper side surface of the PCB circuit board;

The filter lens is fixed above the photosensitive wafer through a fixing bracket, and the fixing bracket is fixedly connected with the PCB circuit board;

The control motor is connected with the PCB circuit board or the fixed support and used for driving the PCB circuit board, the photosensitive wafer, the filter lens and the fixed support to move up and down;

The lens is fixed above the filter lens through the lens seat, the focal point of the lens and the focal point of the filter lens are on the same axis, and the lens seat is fixedly connected with the glass cover plate of the in-plane hole digging screen.

In order to further optimize the technical scheme, the technical measures adopted by the invention further comprise:

Further, the control motor is connected with the PCB circuit board, specifically, the control motor is located the below of PCB circuit board, just the output shaft of control motor with the PCB circuit board is connected, is suitable for driving the PCB circuit board reciprocates, and then drives the sensitization wafer the filter lens with the fixed bolster reciprocates.

Or, the control motor is connected with the fixing support, specifically, the control motor is located on the outer side surface of the fixing support, and the output shaft of the control motor is connected with the fixing support, and is suitable for driving the fixing support to move up and down, so as to drive the PCB circuit board, the photosensitive wafer and the filter lens to move up and down.

The lens is fixed above the filter lens, and the lens seat is fixedly connected with the glass cover plate of the in-plane hole digging screen, so that the lens is fixed relative to the glass cover plate; when the control motor drives the PCB circuit board, the photosensitive wafer, the optical filter lens and the fixing support to move up and down, focusing of the lens of the camera module can be achieved.

Further, the camera module connection structure further includes:

And the flexible circuit board is positioned at the side edge of the bottom of the PCB circuit board and is fixedly connected with the PCB circuit board.

Further, the fixing support is provided with a space suitable for accommodating the photosensitive wafer and the filter lens, one end of the fixing support is fixed with the PCB, and the other end of the fixing support is provided with a boss which is suitable for clamping and fixing the filter lens.

Further, the lens seat is fixedly connected in the hole of the in-plane hole digging screen, and the upper surface of the lens seat and the upper surface of the glass cover plate are positioned in the same plane; the lens is clamped and fixed in the lens seat.

Further, the lower surface of the lens seat is positioned above the lower surface of the glass cover plate; or the lower surface of the lens seat and the lower surface of the glass cover plate are positioned in the same plane.

Further, the lens seat, the lens, the fixing support and the filter lens are all positioned in the hole; and the depth of the hole digging is equal to the sum of the thicknesses of the glass cover plate, the transparent optical adhesive, the front polaroid, the liquid crystal display panel, the rear polaroid and the backlight plate which are sequentially laminated from top to bottom.

Further, the PCB circuit board is positioned below the backlight board.

The invention also provides a display screen, which comprises the camera module connecting structure applied to the in-plane hole digging screen.

The invention also provides a mobile intelligent terminal which comprises the camera module connecting structure applied to the in-plane hole digging screen.

Compared with the prior art, the invention has the following technical effects:

The camera module connecting structure applied to the in-plane hole digging screen divides the original camera module into two mutually independent mechanisms from one integral structure: the lens and the lens seat are used as a first mechanism and fixedly connected with a glass cover plate of the in-plane hole digging screen; the fixed support, the filter lens, the photosensitive wafer, the PCB circuit board, the flexible circuit board and the control motor which are connected with each other are concentrically arranged below the first mechanism as the second mechanism, and the control motor is used for controlling the second mechanism to move up and down relative to the first mechanism so as to realize focusing. Compared with the camera module with the integral structure, the camera module connecting structure can save the internal structural space of the whole machine, can enable the hole digging on the front surface of the screen to be smaller, and improves the screen occupation ratio.

The camera module can be used for independently installing the parts of the second mechanism and the first mechanism respectively, and compared with the camera module with an integral structure, the camera module is easier and more convenient to assemble.

The invention provides two assembly modes with different structures, wherein the control motor is connected below a PCB (printed circuit board) according to actual assembly requirements by adjusting the connection position of the control motor, or is connected to the outer side surface of a fixed bracket; the two different connection modes can adapt to different hole digging depths and adapt to the internal structure of the whole machine, thereby realizing the purpose of saving the internal structural space of the whole machine.

Drawings

FIG. 1 is a schematic diagram of a front camera module;

FIG. 2 is a schematic diagram of a camera module connection structure according to an embodiment of the invention;

FIG. 3 is a schematic diagram of a camera module connection structure according to another embodiment of the invention;

FIG. 4 is a schematic structural diagram of a first mechanism in the camera module connecting structure of FIGS. 2 and 3;

FIG. 5 is a schematic diagram of a second mechanism of the camera module connection structure of FIG. 2;

FIG. 6 is a schematic diagram of a second mechanism in the camera module connection structure of FIG. 3;

FIG. 7 is a schematic view of the external appearance of an in-plane hole digging screen mobile phone using the camera module connecting structure of the present invention;

Wherein, each reference sign is:

101-a lens holder; 102-a lens; 103-fixing a bracket; 104-a filter lens; 105-a photosensitive wafer; 106-a PCB circuit board; 107-a flexible circuit board; 108-controlling the motor; 1-a lens holder; 2-a lens; 3-fixing a bracket; 4-a filter lens; 5-a photosensitive wafer; 6-a PCB circuit board; 7-a flexible circuit board; 8-controlling the motor; 9-a glass cover plate; 10-transparent optical cement; 11-front polarizer; 12-a liquid crystal display panel; 13-a rear polarizer; 14-a backlight plate; 15-a hole digging area; 16-a mobile phone screen display area; 17-mobile phone screen frame.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1

The embodiment provides a camera module connection structure applied to an in-plane hole digging screen.

The in-plane hole digging screen is used for digging holes in a screen display area so as to achieve the purpose of placing a front camera, and is suitable for various display screens such as a mobile phone screen, a flat panel screen and the like; in this embodiment, for example, as shown in fig. 7, a hole for a front camera is "dug" in the upper left corner of the display area 16 of the mobile phone screen, where the dug hole is located is the dug hole area 15, the front camera component is installed at the dug hole area 15, and the frame 17 of the mobile phone screen surrounds the periphery of the display area 16 of the mobile phone screen to form an in-plane dug screen close to the full screen.

As shown in fig. 2, 4 and 5, the camera module connecting structure in the present embodiment includes a second mechanism and a first mechanism that are relatively independent, wherein the second mechanism is composed of a PCB circuit board 6, a photosensitive wafer 5, a filter lens 4, a fixing bracket 3, a control motor 8 and a flexible circuit board 7 that are connected with each other; the first mechanism consists of a lens holder 1 and a lens 2, wherein:

The glass cover plate 9, the transparent optical cement 10, the front polaroid 11, the liquid crystal display panel 12, the rear polaroid 13 and the backlight plate 14 of the screen are punched through the hole sequentially from top to bottom, and the depth of the hole is equal to the sum of the thicknesses of the glass cover plate 9, the transparent optical cement 10, the front polaroid 11, the liquid crystal display panel 12, the rear polaroid 13 and the backlight plate 14;

The PCB circuit board 6 is arranged at the hole digging position of the in-plane hole digging screen and is positioned below the backlight board 14; the photosensitive wafer 5 is fixed on the upper side surface of the PCB circuit board 6; the filter lens 4 is fixed right above the photosensitive wafer 5 through the fixing bracket 3, the fixing bracket 3 is fixedly connected with the PCB circuit board 6, and the fixing bracket 3 and the filter lens 4 are both positioned in the hole; the control motor 8 is positioned below the PCB 6, an output shaft of the control motor 8 is connected with the PCB 6, and the control motor 8 drives the PCB 6 to move up and down so as to drive the second mechanism to move up and down integrally; the flexible circuit board 7 is positioned at the side edge of the bottom of the PCB 6 and is fixedly connected with the PCB 6;

The lens seat 1 and the lens 2 are both positioned in the hollowed-out hole, the lens 2 is fixed above the filter lens 4 through the lens seat 1, and the focal point of the lens 2 and the focal point of the filter lens 4 are on the same axis; the lens seat 1 is fixedly connected with the glass cover plate 9 of the in-plane hole digging screen, the upper surface of the lens seat 1 and the upper surface of the glass cover plate 9 are positioned in the same plane, the lens seat 1 is bent towards the middle at the upper surface of the glass cover plate 9, the lens 2 is clamped and fixed in the lens seat 1 and then fixed in the glass cover plate 9 together with the lens seat 1, and the bent part of the lens seat 1 is used for further limiting the position of the lens 2 so as to prevent the lens 2 from falling from the hole digging; the depth of the first mechanism formed by the lens 2 and the lens seat 1 into the hole is smaller than or equal to the thickness of the glass cover plate 9, namely the lower surface of the lens seat 1 is positioned above the lower surface of the glass cover plate 9; or the lower surface of the lens holder 1 is in the same plane as the lower surface of the glass cover plate 9.

During assembly, the relative positions of the first mechanism and the second mechanism are adjusted, so that the focal point of the lens 2 of the first mechanism and the focal point of the filter lens 4 of the second mechanism are on the same axis, and then the lens and the focal point of the filter lens are respectively and fixedly arranged in the holes of the in-plane hole digging screen; when the front camera is used, the first mechanism is fixedly connected with the glass cover plate 9, and the second mechanism is controlled to move up and down relative to the first mechanism by the control motor 8 so as to realize the focusing function of the front camera assembly.

In this embodiment, the control motor 8 is disposed below the PCB 6, so as to reduce the transverse space occupation ratio of the connection structure of the camera assembly, thereby saving the transverse space structure inside the whole machine.

As a preferred embodiment, the fixing bracket 3 has a space suitable for accommodating the photosensitive chip 5 and the filter lens 4, and one end of the fixing bracket 3 is fixed with the PCB circuit board 6, and the other end is provided with a boss suitable for clamping and fixing the filter lens 4. The filter lens 4 is fixed in the boss by clamping and then is fixed right above the photosensitive wafer 5.

As a preferred embodiment, the control motor 8 is a micro stepping motor, which has the advantage of smooth transmission. In this embodiment, only a specific design manner is provided, taking a conventional screw transmission in the prior art as an example, an output shaft of the micro stepping motor is connected with a lower side surface of the PCB circuit board 6 through a screw, the screw is perpendicular to the PCB circuit board 6, and when the micro stepping motor rotates, the screw rotates, so that a nut fixed on the PCB circuit board 6 moves relative to the screw, and drives the PCB circuit board 6 to move up and down, thereby driving the second mechanism to move up and down integrally.

Correspondingly, the embodiment also provides a display screen provided with the camera module connecting structure applied to the in-plane hole digging screen. Because the camera module connecting structure of the embodiment is installed, the hole digging area of the display screen is smaller than that of the display screen with the camera module connecting structure in the prior art, and the display screen is closer to the concept of a comprehensive screen.

Correspondingly, the embodiment also provides a mobile intelligent terminal applying the camera module connecting structure applied to the in-plane hole digging screen; in this embodiment, the mobile intelligent terminal is specifically a mobile phone.

Example two

The difference between the camera module connecting structure of the present embodiment and the camera module connecting structure of the first embodiment is that in the present embodiment, the control motor 8 of the camera module connecting structure is connected to the outer side surface of the fixed support 3 and drives the fixed support 3 to move up and down, so as to drive the second mechanism to move up and down integrally, as shown in fig. 3, 4 and 6.

During assembly, the relative positions of the first mechanism and the second mechanism are adjusted, so that the focal point of the lens 2 of the first mechanism and the focal point of the filter lens 4 of the second mechanism are on the same axis, and then the lens and the focal point of the filter lens are respectively and fixedly arranged in the holes of the in-plane hole digging screen; when the front camera is used, the first mechanism is fixedly connected with the glass cover plate 9, and the second mechanism is controlled to move up and down relative to the first mechanism by the control motor 8 so as to realize the focusing function of the front camera assembly.

In this embodiment, the control motor 8 is disposed outside the fixed support 3, so that the longitudinal space occupation ratio of the camera component connection structure can be reduced, and the longitudinal space structure inside the whole machine is saved.

As a preferred embodiment, the control motor 8 is a micro stepping motor, which has the advantage of smooth transmission. In this embodiment, only a specific design manner is provided, taking conventional gear transmission in the prior art as an example, an output shaft of the micro stepping motor is connected with an outer side surface of the fixed support 3 through a gear, and an outer side surface of the fixed support 3 is provided with a gear ring meshed with the gear, when the micro stepping motor rotates, the gear rotates, so that the gear ring on the fixed support 3 moves relative to the gear, and drives the fixed support 3 to move up and down, thereby driving the second mechanism to move up and down integrally.

Correspondingly, the embodiment also provides a display screen provided with the camera module connecting structure applied to the in-plane hole digging screen. Because the camera module connecting structure of the embodiment is installed, the hole digging area of the display screen is smaller than that of the display screen with the camera module connecting structure in the prior art, and the display screen is closer to the concept of a comprehensive screen.

Correspondingly, the embodiment also provides a mobile intelligent terminal applying the camera module connecting structure applied to the in-plane hole digging screen; in this embodiment, the mobile intelligent terminal is specifically a mobile phone.

As can be seen from the above embodiments, the camera module connecting structure applied to the in-plane hole digging screen of the present invention divides the original camera module into two mutually independent mechanisms from one integral structure: the lens and the lens seat are fixedly connected to the glass cover plate as a first mechanism; the fixed support, the filter lens, the photosensitive wafer, the PCB circuit board, the flexible circuit board and the control motor which are connected with each other are concentrically arranged below the first mechanism as the second mechanism, and the control motor is used for controlling the second mechanism to move up and down relative to the first mechanism so as to realize focusing. Compared with the camera module with the integral structure, the camera module connecting structure can save the internal structural space of the whole machine, can enable the hole digging on the front surface of the screen to be smaller, and improves the screen occupation ratio. The camera module can be respectively and independently provided with the second mechanism and the first mechanism, and compared with the camera module with an integral structure, the camera module provided by the invention is easier and more convenient to assemble.

As can be seen from the above embodiments, the present invention provides two assembly modes with different structures, by adjusting the connection position of the control motor, the control motor is connected to the lower side of the PCB according to the actual assembly requirement, or the control motor is connected to the outer side of the fixing bracket; the two different connection modes can adapt to different hole digging depths and adapt to the internal structure of the whole machine, thereby realizing the purpose of saving the internal structural space of the whole machine.

The above description of the specific embodiments of the present invention has been given by way of example only, and the present invention is not limited to the above described specific embodiments. Any equivalent modifications and substitutions for this practical use will also occur to those skilled in the art, and are within the scope of the present invention. Accordingly, equivalent changes and modifications are intended to be included within the scope of the present invention without departing from the spirit and scope thereof.

Claims (9)

1. Be applied to camera module connection structure of in-plane hole digging screen, its characterized in that includes: the PCB circuit board is arranged at the hole digging position of the in-plane hole digging screen; the photosensitive wafer is fixed on the upper side surface of the PCB circuit board; the filter lens is fixed above the photosensitive wafer through a fixing bracket, and the fixing bracket is fixedly connected with the PCB circuit board; the control motor is connected with the PCB circuit board or the fixed support and used for driving the PCB circuit board, the photosensitive wafer, the filter lens and the fixed support to move up and down; the lens is fixed above the filter lens through a lens seat, the focal point of the lens and the focal point of the filter lens are on the same axis, and the lens seat is fixedly connected with a glass cover plate of the in-plane hole digging screen;

the lens seat is fixedly connected in the hole of the in-plane hole digging screen, and the upper surface of the lens seat and the upper surface of the glass cover plate are positioned in the same plane; the lens is clamped and fixed in the lens seat;

Wherein, the lens seat is bent towards the middle at the upper surface of the glass cover plate.

2. The camera module connecting structure applied to the in-plane hole digging screen according to claim 1, wherein the control motor is located below the PCB, and an output shaft of the control motor is connected with the PCB and is adapted to drive the PCB to move up and down, so as to drive the photosensitive wafer, the filter lens and the fixing bracket to move up and down.

3. The camera module connecting structure applied to the in-plane hole digging screen according to claim 1, wherein the control motor is located on the outer side face of the fixed support, and an output shaft of the control motor is connected with the fixed support and is suitable for driving the fixed support to move up and down, so as to drive the PCB circuit board, the photosensitive wafer and the filter lens to move up and down.

4. The camera module connection structure applied to an in-plane hole digging screen according to claim 1, further comprising: and the flexible circuit board is positioned at the side edge of the bottom of the PCB circuit board and is fixedly connected with the PCB circuit board.

5. The camera module connecting structure applied to the in-plane hole digging screen according to claim 1, wherein the fixing support is provided with a space suitable for accommodating the photosensitive wafer and the filter lens, one end of the fixing support is fixed with the PCB, and the other end of the fixing support is provided with a boss, and the boss is suitable for clamping and fixing the filter lens.

6. The camera module connection structure for an in-plane hole digging screen according to claim 5 wherein the lower surface of said lens seat is located above the lower surface of said glass cover plate; or the lower surface of the lens seat and the lower surface of the glass cover plate are positioned in the same plane.

7. The camera module connection structure applied to an in-plane hole digging screen according to claim 6, wherein the lens seat, the lens, the fixing support and the filter lens are all positioned in the hole digging; and the depth of the hole digging is equal to the sum of the thicknesses of the glass cover plate, the transparent optical adhesive, the front polaroid, the liquid crystal display panel, the rear polaroid and the backlight plate which are sequentially laminated from top to bottom.

8. A display screen comprising the camera module connecting structure applied to an in-plane hole digging screen as claimed in any one of claims 1 to 7.

9. A mobile intelligent terminal, characterized by comprising the camera module connecting structure applied to the in-plane hole digging screen according to any one of claims 1-7.